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Archive for the ‘neuroscience’ category: Page 269

Jul 18, 2023

Gum Disease and Tooth Loss Linked to Shrinking Hippocampus

Posted by in categories: biotech/medical, health, neuroscience

Gum disease and tooth loss are linked to shrinkage of the hippocampus, an area of the brain crucial for memory. The corresponding study was published in Neurology.

Previous studies suggest that tooth loss and periodontitis may be linked to Alzheimer’s disease. However, recent studies have not found a significant link between tooth loss and periodontitis, and hippocampal atrophy. In the current study, researchers sought to understand more about how oral health affects hippocampal volume-and, thus, memory. To do so, they examined the relationship between number of teeth present and hippocampal atrophy in light of periodontitis severity among middle-aged and older adults.

For the study, the researchers included 172 people with an average age of 67 years old who did not have cognitive decline. At the start of the study, each underwent dental exams and memory tests. They also underwent MRI brain scans at the beginning of the study and four years later to assess their hippocampal volume.

Jul 17, 2023

Eli Lilly’s experimental Alzheimer’s drug slows progression of the disease, study finds

Posted by in categories: biotech/medical, neuroscience

There may soon be another option for an Alzheimer’s drug capable of slowing the progression of the devastating disease.

An experimental Alzheimer’s drug from drugmaker Eli Lilly helped slow cognitive decline in patients in the early stages of the illness, according to the results of a late-stage clinical trial. Side effects of the drug, called donanemab, however, were serious in some cases, and included brain swelling and brain bleeds.

Lilly representatives presented the results at the Alzheimer’s Association International Conference in Amsterdam on Monday. The research was published simultaneously in the Journal of the American Medical Association.

Jul 17, 2023

Low Amyloid Burden Bodes Well for Future Dementia Risk

Posted by in categories: biotech/medical, habitats, neuroscience

Both A4 and LEARN suffered from several methodological hiccups, to the extent that one might consider A4, at least, a failed study. In 2017, after A4 was well underway, the leaders decided to up the solanezumab dosage substantially, from 400 mg to 1,600 mg per dose, and also to extend the follow-up period from the originally planned 3.2 years to 4.5 years, so that effects of the dosage increase could be captured adequately.

Meanwhile, LEARN commenced at about the same time. That meant that less than 3 years later, both studies were hit by the COVID-19 pandemic and its associated disruptions. Many study sites shut down, and the investigators had to resort to home infusions in some places to keep the study going. Aisen and Sperling acknowledged that these issues complicated data collection, analysis, and interpretation. But there was no suggestion that these problems might have obscured a genuine beneficial effect from solanezumab.

Taken together, said Sperling, the results from A4 and LEARN indicate that “amyloid reduction may be necessary to slow progression even at the stage of preclinical [Alzheimer’s disease].”

Jul 17, 2023

Organic electrochemical transistors printed from degradable materials as disposable biochemical sensors

Posted by in categories: chemistry, computing, internet, neuroscience

Advantageously, the fabrication of OECTs, in particular of the conductive channel, is compatible with solution-based fabrication methods and additive manufacturing, enabling cost-efficient manufacturing and rapid prototyping on flexible substrates10. This opens new possibilities in terms of the combination of materials that can be used in the manufacturing of OECTs, in particular the use of degradable materials. Degradable electronics refer to electronic systems and components that can degrade in an environment of interest spontaneously, in a controlled amount of time, and without releasing byproducts that are harmful to that environment18. With concerning amounts of electronic waste being generated, as well as exploding numbers of connected Internet of Things (IoT) devices19, there is growing interest in transient electronic systems with a service life of a few days to a few months. Although advances have been made in the manufacturing of fully degradable functional devices, i.e. antennas20, batteries21 and physical as well as environmental sensors22,23, investigations into degradable biosensors remain relatively limited24.

Advances have been made in proposing new materials for the OECT terminals, in particular the gate electrode, as its properties play a key role in modulating the transistor’s behavior. While Ag/AgCl gates offer the advantage of being non-polarizable, Au gates present little electrochemical activity in the range of voltages typical for OECT-based biosensing. Au and PEDOT: PSS gates have been explored for OECT-based biosensors, with the advantage of expanding the possibilities for bio-functionalizing the gate electrode6,25. PEDOT: PSS gates and contacts have been investigated, simplifying notably their manufacturing26. An all-PEDOT: PSS OECT was presented and shown to measure dopamine concentrations reliably and specifically27. Various forms of carbon have also been investigated for the realization of gate electrodes for OECTs8. Activated carbon gates, for example, showed increased drain current modulation due to the large specific surface area of the carbon material9. Recently, screen-printed carbon-gated OECTs were shown to be suitable for the detection of uric acid after functionalization of the carbon gate with platinum and Uricase28. Transient or recyclable materials such as paper26 have been proposed as substrates for OECTs. Polylactic acid (PLA)24 and Poly(lactic-co-glycolic acid)29 (PLGA) have been studied as degradable substrates for OECTs30, as well as diacetate cellulose31. These studies, however, relied on non-degradable contacts for the operation of the printed OECTs. More recently, Khan et al.32 proposed a fully printed OECT on cellulose acetate (CA) for the selective detection of glucose. The OECT is made of degradable materials and CA is a biocompatible material that is suitable as a substrate for transient biosensors.

In this work, we present disposable and biocompatible OECTs based on carbon, PEDOT: PSS and PLA as substrate. Challenges in the fabrication of transient electronic devices come from the low-temperature tolerance18 of biopolymeric substrates and reaching adhesion of the PEDOT: PSS channel material on the biopolymer33, which is often deposited from an aqueous solution. A fully additive fabrication process is developed to address these challenges, leveraging screen and inkjet printing. The influence of the gate material choice, as well as the gate geometry, are studied, and these parameters are optimized for the fabrication of transient OECTs for ions and metabolite sensing. The transistor characteristics of the devices as well as their sensing behavior and reproducibility are characterized. Finally, the degradable OECTs are integrated with highly conductive transient zinc metal traces, which are of interest for interconnection with other degradable electronic circuits and could allow, for example, the wireless operation of the biochemical chemical sensors34.

Jul 16, 2023

Alzheimer’s diagnosis revamp embraces rating scale similar to cancer

Posted by in categories: biotech/medical, neuroscience

July 16 (Reuters) — Alzheimer’s disease experts are revamping the way doctors diagnose patients with the progressive brain disorder — the most common type of dementia — by devising a seven-point rating scale based on cognitive and biological changes in the patient.

The proposed guidelines, unveiled by experts on Sunday in a report issued at an Alzheimer’s Association conference in Amsterdam, embrace a numerical staging system assessing disease progression similar to the one used in cancer diagnoses. They also eliminate the use of terms like mild, moderate and severe.

The revamp — replacing guidelines issued in 2018 — was prompted by the increased availability of tests detecting key Alzheimer’s-related proteins such as beta amyloid in the blood and new treatments that require confirmation of disease pathology prior to use.

Jul 16, 2023

We can’t predict the future, but appreciating its uncertainties will make us happier

Posted by in categories: biological, evolution, mathematics, neuroscience

In it, he explores how we can make better, scientifically informed predictions about the world around us, using maths. “Mathematics can provide us with the objective tools to bypass the foibles of our own biology – the limitations imposed by our own thought processes, the compulsions that ultimately make us human, but let us down when it comes to making inferences about the world around us,” he writes. “They are humanity’s shortcuts: the preconceptions and cognitive biases, refined over millennia of evolution, that all too often lead us astray when we try to apply our brain’s old rules to our society’s new environments.”

No matter how tempting it is to think, “Ooh, that’s a bit spooky” when faced with a completely random coincidence or chance occurrence, we should all be expecting unusual things to happen all the time, he says.

Yates describes a person who, when browsing in a secondhand bookshop far from where they grew up, opens a copy of their favourite children’s book, only to find their own name inscribed inside. Yet, he says, “the law of truly large numbers” dictates that, just as someone wins the lottery almost every week, with enough opportunities, such extraordinary coincidences are far more likely to happen than you might think. “There are so many different types of coincidences that make us say: ‘Well, that’s extraordinary.’ But it’s not unlikely that some of them happen to us every so often.”

Jul 15, 2023

China News | China Developing Neuro Strike & Tech Weapons To Disrupt Brain Functions | English News

Posted by in categories: biotech/medical, military, neuroscience

Bio threat from China & PLA: Reports.

‘Neuro strike weapons being developed, population to be brainwashed; Tech weapon to disrupt brain functions,’ says report.

Continue reading “China News | China Developing Neuro Strike & Tech Weapons To Disrupt Brain Functions | English News” »

Jul 15, 2023

China developing ‘neurostrike’ weapons to gain control of minds, claims report | Oneindia News

Posted by in categories: government, military, neuroscience

According to intelligence analysts, China’s People’s Liberation Army is reportedly developing high-technology neurostrike weapons that are designed to disrupt brain functions and influence government leaders or entire population. The weapons can be used to directly attack or control brains using microwave or other directed energy weapons in handheld guns or larger weapons firing electromagnetic beams. Analysts, in their report, say that the danger of China’s brain warfare weapons prior to or during a conflict is no longer theoretical. They are also of the opinion that China‘s leadership views neurostrike and psychological warfare as a core component of its asymmetric warfare strategy against the United States and its allies in the Indo-Pacific. Neurostrike is a military term defined as the engineered targeting of the brains of military personnel or civilians using non-kinetic technology. The goal is to impair thinking, reduce situational awareness, inflict long-term neurological damage and cloud normal cognitive functions.

#Neurostrikeweapons #Chinaneurostrike #Chinaneweapon.
~PR.153~ED.102~HT.96~

Continue reading “China developing ‘neurostrike’ weapons to gain control of minds, claims report | Oneindia News” »

Jul 15, 2023

Genes for learning and memory are 650 million years old, study shows

Posted by in categories: biotech/medical, genetics, neuroscience

A team of scientists led by researchers from the University of Leicester have discovered that the genes required for learning, memory, aggression and other complex behaviors originated around 650 million years ago.

The findings led by Dr. Roberto Feuda, from the Neurogenetic group in the Department of Genetics and Genome Biology and other colleagues from the University of Leicester and the University of Fribourg (Switzerland), have now been published in Nature Communications.

Dr. Feuda said, “We’ve known for a long time that monoamines like serotonin, dopamine and adrenaline act as neuromodulators in the , playing a role in complex behavior and functions like learning and memory, as well as processes such as sleep and feeding.”

Jul 15, 2023

Carboncopies: Promoting Research and Development for Whole Brain Emulation

Posted by in category: neuroscience

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